cpp/openttd-patchpack/source Files · src/3rdparty/squirrel/sqstdlib/sqstdstring.cpp

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r24860:fb2788d47d86 9.0 KiB text/x-c Show Annotation Show as Raw Download as Raw
Michael Lutz
Codechange: [OSX] Only keep a total dirty rect for drawing.

When drawing an 8bpp screen buffer, palette resolving was done for each
dirty rectangle. In areas with high activity, this would mean a pixel might
have been resolved multiple times. Also, if too many individual updates
were queued, the whole screen would be refreshed, even if unnecessary.

All other drivers only keep one overall dirty rect, so do it here as well.
/* see copyright notice in squirrel.h */
#include <squirrel.h>
#include <sqstdstring.h>
#include <stdarg.h>

#define scstrchr strchr
#define scatoi atoi
#define scstrtok strtok
#define MAX_FORMAT_LEN	20
#define MAX_WFORMAT_LEN	3
#define ADDITIONAL_FORMAT_SPACE (100*sizeof(SQChar))

static SQInteger validate_format(HSQUIRRELVM v, SQChar *fmt, const SQChar *src, SQInteger n,SQInteger &width)
{
	SQChar swidth[MAX_WFORMAT_LEN];
	SQInteger wc = 0;
	SQInteger start = n;
	fmt[0] = '%';
	while (scstrchr("-+ #0", src[n])) n++;
	while (isdigit(src[n])) {
		swidth[wc] = src[n];
		n++;
		wc++;
		if(wc>=MAX_WFORMAT_LEN)
			return sq_throwerror(v,"width format too long");
	}
	swidth[wc] = '\0';
	if(wc > 0) {
		width = atoi(swidth);
	}
	else
		width = 0;
	if (src[n] == '.') {
	    n++;

		wc = 0;
		while (isdigit(src[n])) {
			swidth[wc] = src[n];
			n++;
			wc++;
			if(wc>=MAX_WFORMAT_LEN)
				return sq_throwerror(v,"precision format too long");
		}
		swidth[wc] = '\0';
		if(wc > 0) {
			width += atoi(swidth);
		}
	}
	if (n-start > MAX_FORMAT_LEN )
		return sq_throwerror(v,"format too long");
	memcpy(&fmt[1],&src[start],((n-start)+1)*sizeof(SQChar));
	fmt[(n-start)+2] = '\0';
	return n;
}

/*
 * Little hack to remove the "format not a string literal, argument types not checked" warning.
 * This check has been added to OpenTTD to make sure that nobody passes wrong string literals,
 * but three lines in Squirrel have a little problem with those. Therefor we use this hack
 * which basically uses vsnprintf instead of sprintf as vsnprintf is not testing for the right
 * string literal at compile time.
 */
static void _append_string(SQInteger &i, SQChar *dest, SQInteger allocated, const SQChar *fmt, ...)
{
	va_list va;
	va_start(va, fmt);
	i += vsnprintf(&dest[i],allocated-i,fmt,va);
	va_end(va);
}


SQRESULT sqstd_format(HSQUIRRELVM v,SQInteger nformatstringidx,SQInteger *outlen,SQChar **output)
{
	const SQChar *format;
	SQChar *dest;
	SQChar fmt[MAX_FORMAT_LEN];
	sq_getstring(v,nformatstringidx,&format);
	SQInteger allocated = (sq_getsize(v,nformatstringidx)+2)*sizeof(SQChar);
	dest = sq_getscratchpad(v,allocated);
	SQInteger n = 0,i = 0, nparam = nformatstringidx+1, w = 0;
	while(format[n] != '\0') {
		if(format[n] != '%') {
			assert(i < allocated);
			dest[i++] = format[n];
			n++;
		}
		else if(format[n+1] == '%') { //handles %%
				dest[i++] = '%';
				n += 2;
		}
		else {
			n++;
			if( nparam > sq_gettop(v) )
				return sq_throwerror(v,"not enough paramters for the given format string");
			n = validate_format(v,fmt,format,n,w);
			if(n < 0) return -1;
			SQInteger addlen = 0;
			SQInteger valtype = 0;
			const SQChar *ts;
			SQInteger ti;
			SQFloat tf;
			switch(format[n]) {
			case 's':
				if(SQ_FAILED(sq_getstring(v,nparam,&ts)))
					return sq_throwerror(v,"string expected for the specified format");
				addlen = (sq_getsize(v,nparam)*sizeof(SQChar))+((w+1)*sizeof(SQChar));
				valtype = 's';
				break;
			case 'i': case 'd': case 'c':case 'o':  case 'u':  case 'x':  case 'X':
				if(SQ_FAILED(sq_getinteger(v,nparam,&ti)))
					return sq_throwerror(v,"integer expected for the specified format");
				addlen = (ADDITIONAL_FORMAT_SPACE)+((w+1)*sizeof(SQChar));
				valtype = 'i';
				break;
			case 'f': case 'g': case 'G': case 'e':  case 'E':
				if(SQ_FAILED(sq_getfloat(v,nparam,&tf)))
					return sq_throwerror(v,"float expected for the specified format");
				addlen = (ADDITIONAL_FORMAT_SPACE)+((w+1)*sizeof(SQChar));
				valtype = 'f';
				break;
			default:
				return sq_throwerror(v,"invalid format");
			}
			n++;
			allocated += addlen + sizeof(SQChar);
			dest = sq_getscratchpad(v,allocated);
			switch(valtype) {
			case 's': _append_string(i,dest,allocated,fmt,ts); break;
			case 'i': _append_string(i,dest,allocated,fmt,ti); break;
			case 'f': _append_string(i,dest,allocated,fmt,tf); break;
			};
			nparam ++;
		}
	}
	*outlen = i;
	dest[i] = '\0';
	*output = dest;
	return SQ_OK;
}

static SQInteger _string_format(HSQUIRRELVM v)
{
	SQChar *dest = NULL;
	SQInteger length = 0;
	if(SQ_FAILED(sqstd_format(v,2,&length,&dest)))
		return -1;
	sq_pushstring(v,dest,length);
	return 1;
}

static void __strip_l(const SQChar *str,const SQChar **start)
{
	const SQChar *t = str;
	while(((*t) != '\0') && isspace(*t)){ t++; }
	*start = t;
}

static void __strip_r(const SQChar *str,SQInteger len,const SQChar **end)
{
	if(len == 0) {
		*end = str;
		return;
	}
	const SQChar *t = &str[len-1];
	while(t != str && isspace(*t)) { t--; }
	*end = t+1;
}

static SQInteger _string_strip(HSQUIRRELVM v)
{
	const SQChar *str,*start,*end;
	sq_getstring(v,2,&str);
	SQInteger len = sq_getsize(v,2);
	__strip_l(str,&start);
	__strip_r(str,len,&end);
	sq_pushstring(v,start,end - start);
	return 1;
}

static SQInteger _string_lstrip(HSQUIRRELVM v)
{
	const SQChar *str,*start;
	sq_getstring(v,2,&str);
	__strip_l(str,&start);
	sq_pushstring(v,start,-1);
	return 1;
}

static SQInteger _string_rstrip(HSQUIRRELVM v)
{
	const SQChar *str,*end;
	sq_getstring(v,2,&str);
	SQInteger len = sq_getsize(v,2);
	__strip_r(str,len,&end);
	sq_pushstring(v,str,end - str);
	return 1;
}

static SQInteger _string_split(HSQUIRRELVM v)
{
	const SQChar *str,*seps;
	SQChar *stemp,*tok;
	sq_getstring(v,2,&str);
	sq_getstring(v,3,&seps);
	if(sq_getsize(v,3) == 0) return sq_throwerror(v,"empty separators string");
	SQInteger memsize = (sq_getsize(v,2)+1)*sizeof(SQChar);
	stemp = sq_getscratchpad(v,memsize);
	memcpy(stemp,str,memsize);
	tok = scstrtok(stemp,seps);
	sq_newarray(v,0);
	while( tok != NULL ) {
		sq_pushstring(v,tok,-1);
		sq_arrayappend(v,-2);
		tok = scstrtok( NULL, seps );
	}
	return 1;
}

#define SETUP_REX(v) \
	SQRex *self = NULL; \
	sq_getinstanceup(v,1,(SQUserPointer *)&self,0);

static SQInteger _rexobj_releasehook(SQUserPointer p, SQInteger size)
{
	SQRex *self = ((SQRex *)p);
	sqstd_rex_free(self);
	return 1;
}

static SQInteger _regexp_match(HSQUIRRELVM v)
{
	SETUP_REX(v);
	const SQChar *str;
	sq_getstring(v,2,&str);
	if(sqstd_rex_match(self,str) == SQTrue)
	{
		sq_pushbool(v,SQTrue);
		return 1;
	}
	sq_pushbool(v,SQFalse);
	return 1;
}

static void _addrexmatch(HSQUIRRELVM v,const SQChar *str,const SQChar *begin,const SQChar *end)
{
	sq_newtable(v);
	sq_pushstring(v,"begin",-1);
	sq_pushinteger(v,begin - str);
	sq_rawset(v,-3);
	sq_pushstring(v,"end",-1);
	sq_pushinteger(v,end - str);
	sq_rawset(v,-3);
}

static SQInteger _regexp_search(HSQUIRRELVM v)
{
	SETUP_REX(v);
	const SQChar *str,*begin,*end;
	SQInteger start = 0;
	sq_getstring(v,2,&str);
	if(sq_gettop(v) > 2) sq_getinteger(v,3,&start);
	if(sqstd_rex_search(self,str+start,&begin,&end) == SQTrue) {
		_addrexmatch(v,str,begin,end);
		return 1;
	}
	return 0;
}

static SQInteger _regexp_capture(HSQUIRRELVM v)
{
	SETUP_REX(v);
	const SQChar *str,*begin,*end;
	SQInteger start = 0;
	sq_getstring(v,2,&str);
	if(sq_gettop(v) > 2) sq_getinteger(v,3,&start);
	if(sqstd_rex_search(self,str+start,&begin,&end) == SQTrue) {
		SQInteger n = sqstd_rex_getsubexpcount(self);
		SQRexMatch match;
		sq_newarray(v,0);
		for(SQInteger i = 0;i < n; i++) {
			sqstd_rex_getsubexp(self,i,&match);
			if(match.len > 0)
				_addrexmatch(v,str,match.begin,match.begin+match.len);
			else
				_addrexmatch(v,str,str,str); //empty match
			sq_arrayappend(v,-2);
		}
		return 1;
	}
	return 0;
}

static SQInteger _regexp_subexpcount(HSQUIRRELVM v)
{
	SETUP_REX(v);
	sq_pushinteger(v,sqstd_rex_getsubexpcount(self));
	return 1;
}

static SQInteger _regexp_constructor(HSQUIRRELVM v)
{
	const SQChar *error,*pattern;
	sq_getstring(v,2,&pattern);
	SQRex *rex = sqstd_rex_compile(pattern,&error);
	if(!rex) return sq_throwerror(v,error);
	sq_setinstanceup(v,1,rex);
	sq_setreleasehook(v,1,_rexobj_releasehook);
	return 0;
}

static SQInteger _regexp__typeof(HSQUIRRELVM v)
{
	sq_pushstring(v,"regexp",-1);
	return 1;
}

#define _DECL_REX_FUNC(name,nparams,pmask) {#name,_regexp_##name,nparams,pmask}
static SQRegFunction rexobj_funcs[]={
	_DECL_REX_FUNC(constructor,2,".s"),
	_DECL_REX_FUNC(search,-2,"xsn"),
	_DECL_REX_FUNC(match,2,"xs"),
	_DECL_REX_FUNC(capture,-2,"xsn"),
	_DECL_REX_FUNC(subexpcount,1,"x"),
	_DECL_REX_FUNC(_typeof,1,"x"),
	{0,0,0,0}
};

#define _DECL_FUNC(name,nparams,pmask) {#name,_string_##name,nparams,pmask}
static SQRegFunction stringlib_funcs[]={
	_DECL_FUNC(format,-2,".s"),
	_DECL_FUNC(strip,2,".s"),
	_DECL_FUNC(lstrip,2,".s"),
	_DECL_FUNC(rstrip,2,".s"),
	_DECL_FUNC(split,3,".ss"),
	{0,0,0,0}
};


SQInteger sqstd_register_stringlib(HSQUIRRELVM v)
{
	sq_pushstring(v,"regexp",-1);
	sq_newclass(v,SQFalse);
	SQInteger i = 0;
	while(rexobj_funcs[i].name != 0) {
		SQRegFunction &f = rexobj_funcs[i];
		sq_pushstring(v,f.name,-1);
		sq_newclosure(v,f.f,0);
		sq_setparamscheck(v,f.nparamscheck,f.typemask);
		sq_setnativeclosurename(v,-1,f.name);
		sq_createslot(v,-3);
		i++;
	}
	sq_createslot(v,-3);

	i = 0;
	while(stringlib_funcs[i].name!=0)
	{
		sq_pushstring(v,stringlib_funcs[i].name,-1);
		sq_newclosure(v,stringlib_funcs[i].f,0);
		sq_setparamscheck(v,stringlib_funcs[i].nparamscheck,stringlib_funcs[i].typemask);
		sq_setnativeclosurename(v,-1,stringlib_funcs[i].name);
		sq_createslot(v,-3);
		i++;
	}
	return 1;
}